Background and Objective: Postural instability is common in patient with Parkinson's disease (PD). The purpose of this study was to investigate the effects of virtual reality (VR) balance training on sensory and cognitive domains of postural control.

Setting: Balance Performance Laboratory. Participants: A total of 42 patients (Hoehn and Yahr stage II-III) were recruited and assigned into three groups randomly.

Intervention: Participants in the virtual reality (VR) group and conventional balance training (CB) group received a 6 weeks balance training program. The control group (CG) did not receive any training.

Outcome Measures: The sensory organization tests (SOT) of computerized dynamic posturography with single and dual tasks (i.e. with backward subtraction of number) were examined pre-, post-training and follow-up. The equilibrium score (ES) and sensory ratio were measured. The verbal reaction time (VRT) was recorded.

Results: (1) Only VR significantly increased ES of SOT-6 (i.e., vestibular function at visual and somatosensory conflicting condition) post-training more than CG post-training in either single or dual task. (2) Only CB training significantly increased SOT-5 (i.e., vestibular function without visual conflict) and vestibular sensory ratio (i.e., SOT-5/SOT-1) more than CG post-training in either single or dual task. (3) (3) Neither VR nor CB training reduced VRT significantly under six sensory conditions at post-training and follow-up.

Conclusion: Both VR training and CB training can improve sensory organization for postural control by enhancing utilization of vestibular information, but VR could enhance vestibular function with conflicting proprioceptive and visual information under single and dual tasks in patients with mild to moderate PD.

It is common that people who are diagnosed with idiopathic Parkinson disease (PD) experience postural instability during daily activities.Recently, postural instability is suggested as the underlying mechanism of falling in patients with PD. Therefore, how to improve postural stability by balance training is an important issue for these patients.

Basal ganglia have been regarded to be predominantly involved in postural control. Several studies suggested that the dysfunction of basal ganglia in patients with PD might play a major role in postural instability. Furthermore, patients with PD might have impaired utilization of sensory information by the basal ganglia.Computerized dynamic posturography (CDP) has the Sensory Organization Test (SOT), which provides an objective assessment of the main sensory systems (i.e., vision, proprioception and vestibular system) involved in balance and stability. The role of sensory information under six conditions (i.e., eyes open, eyes closed, sway vision, eyes open sway support, eyes closed sway support, and sway vision sway support) has been studied in patients with PD by the SOT of computerized CDP. Their study indicated that patients with PD demonstrated a significant reduction in sensory integration of proprioception and vision, but no significant difference in vestibular function, as compared to age-matched controls. One study showed that patients with PD had visual dependence as an adaptive strategy partly compensating for the impaired proprioception. However, the other study suggested that the cerebellum might be important for sensory integration in patients with PD.

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Please refer to this study by its ClinicalTrials.gov identifier: NCT01301651

Locations

Taiwan

National Taiwan University Hospital

Taipei, Taiwan

Sponsors and Collaborators

National Taiwan University Hospital

National Science Council, Taiwan

Investigators

Principal Investigator:

Kwan-Hwa Lin, PhD

School and Graduate Institute of Physical Therapy, National Taiwan University